1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
use crate::build::ForGuard::OutsideGuard;
use crate::build::{BlockAnd, BlockAndExtension, BlockFrame, Builder};
use rustc_middle::middle::region::Scope;
use rustc_middle::thir::*;
use rustc_middle::{mir::*, ty};
use rustc_span::Span;

impl<'a, 'tcx> Builder<'a, 'tcx> {
    pub(crate) fn ast_block(
        &mut self,
        destination: Place<'tcx>,
        block: BasicBlock,
        ast_block: BlockId,
        source_info: SourceInfo,
    ) -> BlockAnd<()> {
        let Block { region_scope, span, ref stmts, expr, targeted_by_break, safety_mode } =
            self.thir[ast_block];
        self.in_scope((region_scope, source_info), LintLevel::Inherited, move |this| {
            if targeted_by_break {
                this.in_breakable_scope(None, destination, span, |this| {
                    Some(this.ast_block_stmts(
                        destination,
                        block,
                        span,
                        stmts,
                        expr,
                        safety_mode,
                        region_scope,
                    ))
                })
            } else {
                this.ast_block_stmts(
                    destination,
                    block,
                    span,
                    stmts,
                    expr,
                    safety_mode,
                    region_scope,
                )
            }
        })
    }

    fn ast_block_stmts(
        &mut self,
        destination: Place<'tcx>,
        mut block: BasicBlock,
        span: Span,
        stmts: &[StmtId],
        expr: Option<ExprId>,
        safety_mode: BlockSafety,
        region_scope: Scope,
    ) -> BlockAnd<()> {
        let this = self;

        // This convoluted structure is to avoid using recursion as we walk down a list
        // of statements. Basically, the structure we get back is something like:
        //
        //    let x = <init> in {
        //       expr1;
        //       let y = <init> in {
        //           expr2;
        //           expr3;
        //           ...
        //       }
        //    }
        //
        // The let bindings are valid till the end of block so all we have to do is to pop all
        // the let-scopes at the end.
        //
        // First we build all the statements in the block.
        let mut let_scope_stack = Vec::with_capacity(8);
        let outer_source_scope = this.source_scope;
        let outer_in_scope_unsafe = this.in_scope_unsafe;
        // This scope information is kept for breaking out of the parent remainder scope in case
        // one let-else pattern matching fails.
        // By doing so, we can be sure that even temporaries that receive extended lifetime
        // assignments are dropped, too.
        let mut last_remainder_scope = region_scope;
        this.update_source_scope_for_safety_mode(span, safety_mode);

        let source_info = this.source_info(span);
        for stmt in stmts {
            let Stmt { ref kind } = this.thir[*stmt];
            match kind {
                StmtKind::Expr { scope, expr } => {
                    this.block_context.push(BlockFrame::Statement { ignores_expr_result: true });
                    let si = (*scope, source_info);
                    unpack!(
                        block = this.in_scope(si, LintLevel::Inherited, |this| {
                            this.stmt_expr(block, *expr, Some(*scope))
                        })
                    );
                }
                StmtKind::Let {
                    remainder_scope,
                    init_scope,
                    pattern,
                    initializer: Some(initializer),
                    lint_level,
                    else_block: Some(else_block),
                    span: _,
                } => {
                    // When lowering the statement `let <pat> = <expr> else { <else> };`,
                    // the `<else>` block is nested in the parent scope enclosing this statement.
                    // That scope is usually either the enclosing block scope,
                    // or the remainder scope of the last statement.
                    // This is to make sure that temporaries instantiated in `<expr>` are dropped
                    // as well.
                    // In addition, even though bindings in `<pat>` only come into scope if
                    // the pattern matching passes, in the MIR building the storages for them
                    // are declared as live any way.
                    // This is similar to `let x;` statements without an initializer expression,
                    // where the value of `x` in this example may or may be assigned,
                    // because the storage for their values may not be live after all due to
                    // failure in pattern matching.
                    // For this reason, we declare those storages as live but we do not schedule
                    // any drop yet- they are scheduled later after the pattern matching.
                    // The generated MIR will have `StorageDead` whenever the control flow breaks out
                    // of the parent scope, regardless of the result of the pattern matching.
                    // However, the drops are inserted in MIR only when the control flow breaks out of
                    // the scope of the remainder scope associated with this `let .. else` statement.
                    // Pictorial explanation of the scope structure:
                    // ┌─────────────────────────────────┐
                    // │  Scope of the enclosing block,  │
                    // │  or the last remainder scope    │
                    // │  ┌───────────────────────────┐  │
                    // │  │  Scope for <else> block   │  │
                    // │  └───────────────────────────┘  │
                    // │  ┌───────────────────────────┐  │
                    // │  │  Remainder scope of       │  │
                    // │  │  this let-else statement  │  │
                    // │  │  ┌─────────────────────┐  │  │
                    // │  │  │ <expr> scope        │  │  │
                    // │  │  └─────────────────────┘  │  │
                    // │  │  extended temporaries in  │  │
                    // │  │  <expr> lives in this     │  │
                    // │  │  scope                    │  │
                    // │  │  ┌─────────────────────┐  │  │
                    // │  │  │ Scopes for the rest │  │  │
                    // │  │  └─────────────────────┘  │  │
                    // │  └───────────────────────────┘  │
                    // └─────────────────────────────────┘
                    // Generated control flow:
                    //          │ let Some(x) = y() else { return; }
                    //          │
                    // ┌────────▼───────┐
                    // │ evaluate y()   │
                    // └────────┬───────┘
                    //          │              ┌────────────────┐
                    // ┌────────▼───────┐      │Drop temporaries│
                    // │Test the pattern├──────►in y()          │
                    // └────────┬───────┘      │because breaking│
                    //          │              │out of <expr>   │
                    // ┌────────▼───────┐      │scope           │
                    // │Move value into │      └───────┬────────┘
                    // │binding x       │              │
                    // └────────┬───────┘      ┌───────▼────────┐
                    //          │              │Drop extended   │
                    // ┌────────▼───────┐      │temporaries in  │
                    // │Drop temporaries│      │<expr> because  │
                    // │in y()          │      │breaking out of │
                    // │because breaking│      │remainder scope │
                    // │out of <expr>   │      └───────┬────────┘
                    // │scope           │              │
                    // └────────┬───────┘      ┌───────▼────────┐
                    //          │              │Enter <else>    ├────────►
                    // ┌────────▼───────┐      │block           │ return;
                    // │Continue...     │      └────────────────┘
                    // └────────────────┘

                    let ignores_expr_result = matches!(pattern.kind, PatKind::Wild);
                    this.block_context.push(BlockFrame::Statement { ignores_expr_result });

                    // Lower the `else` block first because its parent scope is actually
                    // enclosing the rest of the `let .. else ..` parts.
                    let else_block_span = this.thir[*else_block].span;
                    // This place is not really used because this destination place
                    // should never be used to take values at the end of the failure
                    // block.
                    let dummy_place = this.temp(this.tcx.types.never, else_block_span);
                    let failure_entry = this.cfg.start_new_block();
                    let failure_block;
                    unpack!(
                        failure_block = this.ast_block(
                            dummy_place,
                            failure_entry,
                            *else_block,
                            this.source_info(else_block_span),
                        )
                    );
                    this.cfg.terminate(
                        failure_block,
                        this.source_info(else_block_span),
                        TerminatorKind::Unreachable,
                    );

                    // Declare the bindings, which may create a source scope.
                    let remainder_span = remainder_scope.span(this.tcx, this.region_scope_tree);
                    this.push_scope((*remainder_scope, source_info));
                    let_scope_stack.push(remainder_scope);

                    let visibility_scope =
                        Some(this.new_source_scope(remainder_span, LintLevel::Inherited, None));

                    let initializer_span = this.thir[*initializer].span;
                    let scope = (*init_scope, source_info);
                    let failure = unpack!(
                        block = this.in_scope(scope, *lint_level, |this| {
                            this.declare_bindings(
                                visibility_scope,
                                remainder_span,
                                pattern,
                                None,
                                Some((Some(&destination), initializer_span)),
                            );
                            this.visit_primary_bindings(
                                pattern,
                                UserTypeProjections::none(),
                                &mut |this, _, _, _, node, span, _, _| {
                                    this.storage_live_binding(
                                        block,
                                        node,
                                        span,
                                        OutsideGuard,
                                        true,
                                    );
                                },
                            );
                            this.ast_let_else(
                                block,
                                *initializer,
                                initializer_span,
                                *else_block,
                                &last_remainder_scope,
                                pattern,
                            )
                        })
                    );
                    this.cfg.goto(failure, source_info, failure_entry);

                    if let Some(source_scope) = visibility_scope {
                        this.source_scope = source_scope;
                    }
                    last_remainder_scope = *remainder_scope;
                }
                StmtKind::Let { init_scope, initializer: None, else_block: Some(_), .. } => {
                    span_bug!(
                        init_scope.span(this.tcx, this.region_scope_tree),
                        "initializer is missing, but else block is present in this let binding",
                    )
                }
                StmtKind::Let {
                    remainder_scope,
                    init_scope,
                    ref pattern,
                    initializer,
                    lint_level,
                    else_block: None,
                    span: _,
                } => {
                    let ignores_expr_result = matches!(pattern.kind, PatKind::Wild);
                    this.block_context.push(BlockFrame::Statement { ignores_expr_result });

                    // Enter the remainder scope, i.e., the bindings' destruction scope.
                    this.push_scope((*remainder_scope, source_info));
                    let_scope_stack.push(remainder_scope);

                    // Declare the bindings, which may create a source scope.
                    let remainder_span = remainder_scope.span(this.tcx, this.region_scope_tree);

                    let visibility_scope =
                        Some(this.new_source_scope(remainder_span, LintLevel::Inherited, None));

                    // Evaluate the initializer, if present.
                    if let Some(init) = *initializer {
                        let initializer_span = this.thir[init].span;
                        let scope = (*init_scope, source_info);

                        unpack!(
                            block = this.in_scope(scope, *lint_level, |this| {
                                this.declare_bindings(
                                    visibility_scope,
                                    remainder_span,
                                    pattern,
                                    None,
                                    Some((None, initializer_span)),
                                );
                                this.expr_into_pattern(block, &pattern, init)
                                // irrefutable pattern
                            })
                        )
                    } else {
                        let scope = (*init_scope, source_info);
                        unpack!(this.in_scope(scope, *lint_level, |this| {
                            this.declare_bindings(
                                visibility_scope,
                                remainder_span,
                                pattern,
                                None,
                                None,
                            );
                            block.unit()
                        }));

                        debug!("ast_block_stmts: pattern={:?}", pattern);
                        this.visit_primary_bindings(
                            pattern,
                            UserTypeProjections::none(),
                            &mut |this, _, _, _, node, span, _, _| {
                                this.storage_live_binding(block, node, span, OutsideGuard, true);
                                this.schedule_drop_for_binding(node, span, OutsideGuard);
                            },
                        )
                    }

                    // Enter the visibility scope, after evaluating the initializer.
                    if let Some(source_scope) = visibility_scope {
                        this.source_scope = source_scope;
                    }
                    last_remainder_scope = *remainder_scope;
                }
            }

            let popped = this.block_context.pop();
            assert!(popped.is_some_and(|bf| bf.is_statement()));
        }

        // Then, the block may have an optional trailing expression which is a “return” value
        // of the block, which is stored into `destination`.
        let tcx = this.tcx;
        let destination_ty = destination.ty(&this.local_decls, tcx).ty;
        if let Some(expr_id) = expr {
            let expr = &this.thir[expr_id];
            let tail_result_is_ignored =
                destination_ty.is_unit() || this.block_context.currently_ignores_tail_results();
            this.block_context
                .push(BlockFrame::TailExpr { tail_result_is_ignored, span: expr.span });

            unpack!(block = this.expr_into_dest(destination, block, expr_id));
            let popped = this.block_context.pop();

            assert!(popped.is_some_and(|bf| bf.is_tail_expr()));
        } else {
            // If a block has no trailing expression, then it is given an implicit return type.
            // This return type is usually `()`, unless the block is diverging, in which case the
            // return type is `!`. For the unit type, we need to actually return the unit, but in
            // the case of `!`, no return value is required, as the block will never return.
            // Opaque types of empty bodies also need this unit assignment, in order to infer that their
            // type is actually unit. Otherwise there will be no defining use found in the MIR.
            if destination_ty.is_unit()
                || matches!(destination_ty.kind(), ty::Alias(ty::Opaque, ..))
            {
                // We only want to assign an implicit `()` as the return value of the block if the
                // block does not diverge. (Otherwise, we may try to assign a unit to a `!`-type.)
                this.cfg.push_assign_unit(block, source_info, destination, this.tcx);
            }
        }
        // Finally, we pop all the let scopes before exiting out from the scope of block
        // itself.
        for scope in let_scope_stack.into_iter().rev() {
            unpack!(block = this.pop_scope((*scope, source_info), block));
        }
        // Restore the original source scope.
        this.source_scope = outer_source_scope;
        this.in_scope_unsafe = outer_in_scope_unsafe;
        block.unit()
    }

    /// If we are entering an unsafe block, create a new source scope
    fn update_source_scope_for_safety_mode(&mut self, span: Span, safety_mode: BlockSafety) {
        debug!("update_source_scope_for({:?}, {:?})", span, safety_mode);
        let new_unsafety = match safety_mode {
            BlockSafety::Safe => return,
            BlockSafety::BuiltinUnsafe => Safety::BuiltinUnsafe,
            BlockSafety::ExplicitUnsafe(hir_id) => {
                self.in_scope_unsafe = Safety::ExplicitUnsafe(hir_id);
                Safety::ExplicitUnsafe(hir_id)
            }
        };

        self.source_scope = self.new_source_scope(span, LintLevel::Inherited, Some(new_unsafety));
    }
}